Methods and apparatus to increase resolver-to-digital converter accuracy

What is claimed is: 1. A zero crossing detector for a resolver-to-digital converter comprising: a first comparator having a common-mode signal input, an exciter signal input, and a reference zero crossing output; a second comparator having a common-mode signal input, a first sinusoidal signal input, and a sine zero crossing output; a third comparator having a common-mode signal input, a second sinusoidal signal input, and a cosine zero crossing output; a fourth comparator having a first threshold signal input, a second threshold signal input, an input coupled to the first sinusoidal signal input, and a first sinusoidal confirmation signal output; and a fifth comparator having a first input coupled to the first threshold signal input, a second input coupled to the second threshold signal input, a third input coupled to the second sinusoidal signal input, and a second sinusoidal confirmation signal output. 2. The detector as defined in claim 1 , including a phase difference selector having a first input coupled to the reference zero crossing output and to the sine zero crossing output, a second input coupled to the reference zero crossing input and to the cosine zero crossing output, a third input coupled to the first sinusoidal confirmation signal output, a fourth input coupled to the second sinusoidal confirmation signal output, and a phase difference output. 3. The detector as defined in claim 2 , in which the phase difference selector is a multiplexer. 4. The detector as defined in claim 2 including a first phase difference measurer having a first input coupled to the sine zero crossing output, a second input coupled to the reference zero crossing output, and an output coupled to the first input of the phase difference selector. 5. The detector as defined in claim 4 having a first input coupled to the cosine zero crossing output, a second input coupled to the reference zero crossing output, and an output coupled to the second input of the phase difference selector. 6. The detector as defined in claim 5 , in which the phase difference selector selects as the phase difference output one of the output of the first phase difference measurer and the output of the second phase difference measurer. 7. The detector as defined in claim 6 , in which the phase difference selector selects as the phase difference output one of the output of the first phase difference measurer and the output of the second phase difference measurer based on the third input and the fourth input. 8. A method of operating a resolver-to-digital converter comprising: comparing a first induced signal from a resolver sensor with a common-mode signal to determine a first zero-cross signal; comparing a second induced signal from the resolver sensor with the common-mode signal to determine a second zero-cross signal; comparing an excitation signal from the resolver sensor with the common-mode signal to determine a third zero-cross signal; comparing the first induced signal with a first threshold signal and a second threshold signal to determine a first zero-cross confirmation signal; comparing the second induced sinusoidal signal with the first threshold signal and the second threshold signal to determine a second zero-cross confirmation signal; and determining a phase difference between the excitation signal and one of the first and second zero cross signals in response to the first zero-cross confirmation signal, and the second zero-cross confirmation signal. 9. The method as defined in claim 8 , including: when the first zero-cross confirmation signal is a high value, determining the phase difference based on the first zero-cross signal; and when the second zero-cross confirmation signal is a high value, determining the phase difference based on the second zero-cross signal. 10. The method as defined in claim 8 , including determining a first potential phase difference based on the first zero-cross signal and the third zero-cross signal. 11. The method as defined in claim 10 , including determining a second potential phase difference based on the second zero-cross signal and the third zero-cross signal. 12. The method as defined in claim 11 , in which the determining of the phase difference includes selecting at least one of the first potential phase difference or the second potential phase difference. 13. The method as defined in claim 12 , in which the selecting of the at least one of the first potential phase difference or the second potential phase difference is based on the first zero-cross confirmation signal and the second zero-cross confirmation signal. 14. The method as define in claim 8 , including demodulating a signal of the resolver-to-digital converter based on the phase difference to determine a rotor position angle.